(1) The synthetic peptide MAIPPKK inhibited the platelet aggregation but its effect was much lower than that induced by the undecapeptide (MAIPPKKNQDK). For the MAIPPKK very high concentrations (800-1600 μM) were required in order to inhibit only 35% of the platelet aggregation which was an unspecific effect. At these concentrations the MAIPPKK had no influence on fibrinogen binding. The effect of the natural peptide was similar (data not shown). So the MAIPPKK can be considered as non-inhibitory on platelet aggregation taking into account the high unspecific concentrations (800-1600 μM).
(2) The peptide is inhibitors of both, the aggregation of ADP-activated platelets and binding of human fibrinogen γ-chain to a specific receptor region on the platelet sufrace ^[4].
(3) The interacting region of the fibrinogen γ-chain in platelet aggregation is the C-terminal dodecapeptide sequence that itself possesses similar inhibiting effects ^[5].
(4) The two smaller tryptic peptide MAIPPKK and NQDK contained in the undecapeptide (MAIPPKKNQDK) have a much lower effect on platelet aggregation and do not inhibit fibrinogen binding, as shown in Table 1 ^[6].

Chymosin digestion of cow κ-caein releases the κ-caseinoglycopeptide, the C-terminal part of κ-casein (residues 106-169). And then the κ-caseinoglycopeptide was digested with trypsin.

The peptide was also found in sheep milk proteins ^{[D2, 3]}.

[1] Park Y W. Bioactive Components in Milk and Dairy Products[M]. 2009.
[2] Schlimme E, Meisel H. Bioactive peptides derived from milk proteins. Structural, physiological and analytical aspects.[J]. Nahrung, 2010, 39(1):1-20.
[3] Qian Z Y, Jollès P, Miglioresamour D, et al. Sheep kappa-casein peptides inhibit platelet aggregation.[J]. Biochimica Et Biophysica Acta, 1995, 1244(2–3):411-417.
[4] Fiat A M, Levytoledano S, Caen J P, et al. Biologically active peptides of casein and lactotransferrin implicated in platelet function.[J]. Journal of Dairy Research, 1989, 56(3):351-355.
[5] Kloczewiak M, Timmons S, Lukas T J, et al. Platelet receptor recognition site on human fibrinogen. Synthesis and structure-function relationship of peptides corresponding to the carboxy-terminal segment of the gamma chain[J]. Biochemistry, 1984, 23(8):1767-74.
[6] Fiat A M, Migliore-Samour D, Jollã¨S P, et al. Biologically active peptides from milk proteins with emphasis on two examples concerning antithrombotic and immunomodulating activities[J]. Journal of Dairy Science, 1993, 76(1):301-310.